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Edited by internationally recognized authorities in the field, the Handbook is aimed at the design and operation of modern accelerators including Linacs, Synchrotrons and Storage Rings and is intended as a vade mecum for professional engineers and physicists engaged in these subjects. With a collection of 2100 equations, 330 illustrations and 180 tables, here one will find, in addition to the common formulae of previous compilations, hard to find, specialized formulae, recipes and material data pooled from the lifetime experience of many of the worldâ€TMs most able practitioners of the art and
Particle accelerators --- Nuclear physics --- Atomic nuclei --- Atoms, Nuclei of --- Nucleus of the atom --- Physics --- Accelerators, Particle --- Atom smashers --- Charged particle accelerators --- Accelerator mass spectrometry --- Instruments
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378.4 <485 UPPSALA> --- Nuclear physics --- -Particle accelerators --- -Accelerators, Particle --- Atom smashers --- Charged particle accelerators --- Accelerator mass spectrometry --- Atomic nuclei --- Atoms, Nuclei of --- Nucleus of the atom --- Physics --- Universiteiten--Zweden--UPPSALA --- Research --- -History --- -Instruments --- Gustaf Werners institut --- -Gustaf Werner Institute --- History --- Particle accelerators --- -Universiteiten--Zweden--UPPSALA --- -Gustaf Werners institut --- 378.4 <485 UPPSALA> Universiteiten--Zweden--UPPSALA --- Accelerators, Particle --- Instruments --- Gustaf Werner Institute --- History. --- Gustaf Werners Institut Uppsala --- Accelerateurs de particules
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Over the last 50 years particle accelerators have evolved from simple devices to powerful machines, and will continue to have an important impact on research, technology and lifestyle. Today, they cover a wide range of applications, from television and computer displays in households to investigating the origin and structure of matter. It has become common practice to use particle accelerators for material science and medical applications. In recent years, requirements from new technological and research applications have emerged, giving rise to new radiation shielding aspects and problems. These workshop proceedings review recent progress in radiation shielding of accelerator facilities, evaluating advancements and discussing further developments needed with respect to international co-operation in this field.
Shielding (Radiation) --- Particle accelerators --- Blindage (Rayonnement) --- Accélérateurs de particules --- Congresses. --- Congrès --- Blindage --- Nuclear Energy --- Nuclear facilities --- Nuclear Engineering --- Mechanical Engineering --- Engineering & Applied Sciences --- Safety measures --- Atomic facilities --- Facilities, Nuclear --- Nuclear installations --- Nuclear energy --- Nuclear engineering --- Accelerators, Particle --- Atom smashers --- Charged particle accelerators --- Nuclear physics --- Accelerator mass spectrometry --- Nuclear shielding --- Radiation shielding --- Radioactivity --- X-rays --- Instruments
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This book is the first comprehensive introduction to X-ray and neutron reflectivity techniques and illustrates them with many examples. After a pedagogical introduction on the interaction of X-rays and neutrons with matter, the interplay between the statistics of rough surfaces and interfaces and the scattering of radiation is considered in detail. Specular reflectivity and diffuse scattering are discussed next. The approximations are rigorously introduced and many experimental effects are discussed. In the case of neutron reflectivity, particular attention is paid to the reflectivity of polarized neutrons from magnetic multilayers, which allows the determination of in-plane magnetization profils. Many applications are reviewed in the second part : rough surface, interfaces and multilayers, liquid surfaces and soft-condensed matter, and thin polymer films. In each case the underlying physics is first introduced, then specific experiment methods are described. The book addresses researchers and graduate students.
Solid state physics. --- Particle accelerators. --- X-rays --- Neutrons --- Surfaces (Technology) --- Physique de l'état solide --- Accélérateurs de particules. --- Rayons X --- Neutrons --- Surfaces (technologie) --- Scattering. --- Scattering. --- Diffusion. --- Diffusion.
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